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Ray Tracing 5 . Hsin -Yi Tu Guided by Pisin Chen, Melin Huang Shi- Hao Wang. Finished. On-going. Next. Working Items. Insert SADE in Shang-Yu‘s code completely. (Thanks Shi- Hao a lot !). Input : shower position. solution type.
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Ray Tracing 5 Hsin-Yi Tu Guided by Pisin Chen, Melin Huang Shi-Hao Wang
Finished • On-going • Next Working Items • Insert SADE in Shang-Yu‘s code completely. (Thanks Shi-Hao a lot !) • Input : shower position. • solution type. • (1: directed radiation; 2: reflected radiation; 3: both of them) • Output : radiation’s angle. • path length. • propagated time. • attenuation factor.
Ray Trace antenna Reflected radiation (xant ,yant ,zant) → (0, zant) Directed radiation θ0 θdir θref υ Shower position (xsh ,ysh ,zsh) → ( r , zsh)
Flow chart for voltage • Modification Vinitial (bipolarwave)(t-domain) Vinitial (f-domain) Vreceived (f-domain) Vreceived (t-domain) + noise Find V max (signalvalue) and observed time Arrange in order (voltage value) FFT Propagation (SADE) FFT noise = Gaussian function (random number)
n_detection – dis_Event_Cuben_hit – dis_Event_Cube 10 events neutrino θ n_detection : θ < 90 o n_hit : get hit in SADE dis_Event_Cube : distance from the center (0,0,0) to shower position
rs0 = * : n_detection ● : n_hit ddr = Zantenna – Zshower